DE1486285C - Container construction - Google Patents

Description

form, which are completely sealed off from the ambient air, because the base 13 with the lower Front part 16 of the container 11 is connected in a sealed manner. Similarly, the base 14 forms two Annular spaces 31, 32, which, together with the upper front part 17 of the container, have two air chambers 33, 34 form. If it is necessary for storage reasons, the ring-shaped air chambers can be subdivided so that there are several air chambers.

The upper end of the base 13 has an annular wall portion 35 on the downward Shoulder 18 sits and is connected to this and the upper base 14 has a similar annular wall section 36, which sits on and is connected to the upwardly directed shoulder 19. the Annular wall sections 35, 36 are beveled on the outside, i. H. they taper towards the end.

The base 13 also forms a downwardly directed recess 37 which passes through the floor is closed, on which the container stands, creating another closed air space is formed. Similarly, the upper base is formed to have a recess 38 has, whereby a closed air space is created when the container on the annular base 26 stands. The recesses 37, 38 are adjacent to the channels 27, 28 and the channels 31, 32, respectively arranged.

The base 13 has a maximum outside diameter 39, and the base 14 has a maximum Outside diameter 40. The outside diameter 39

ίο and 40 are larger than any other outside diameter of the container 11 or, if present, the tubular housing 12. Since the sockets 13 and 14 have such a large outer diameter, it is possible to place the insulated container 10 on its side lay and roll. Because these diameters are larger than any other diameter of the whole Construction, the container 11 is protected.

The bases 13 and 14 are preferably made of heat. meisolating material and because they are preferably

ao consist of an elastomer in the manner of rubber, which is resistant to impact, is the whole Structure protected against damage that could result from handling.

1 sheet of drawings

Claims (2)

ι 2, they do not touch with their claims: container walls, but with the sections of the base that have the largest diameter, so that 1. Container structure, consisting of a container joint from the elastic base sections with a cylindrical central part, arched 5 can be taken, with the inclusion of the front parts and separate, from elastomeric joints due to the special storage of the outer material existing base, the one ring wall is supported on the container. If a shaped cavity is to be rolled with two such containers, then this Behälkoaxialen ring surfaces rolls on or on the arched ter on the base sections with the largest through-forehead parts of the container and in axial io knife, so that the container wall is spared. When such a container tips over, it is characterized in that the container (11) is again taken up by a base abden transition points between the cylindrical section of the largest diameter in abutment upon impact.
Middle part and the end parts (16, 17) circumferential In a preferred embodiment, can "Has recesses, each of which essentially extends the base from the point of greatest diameter borrowed axially directed support shoulder (18, 19) bil- to the outer ring supported on the container the; that the outer walls are tapered towards the container. zenden ring walls (35, 36) of the base (13, 14) The invention is intended with reference to the are explained in each case flush in the figures of the drawing that form the shoulder shoulder. It shows Fit recesses and that the base ao F i g. 1 shows a cross section through a container, each have a section (39, 40), des- F i g. 2 an enlarged partial section of the container sen diameter is greater than the diameter ters according to FIG. 1. ■ '>! all parts of the container. A container assembly 10 (Fig. 1) has a cylindrical ^ 2. Container structure according to claim 1, characterized on the drischen container 11, the vpn a tubular j characterized in that the base (13, 14) can be surrounded by the housing 12 at its ends the point of largest diameter (39, 40) is supported by means of two base parts 13 and 14, respectively. outer ring supported on the container The container 11 is preferably made of rust! taper the wall (35, 36). free steel and comes with appropriate fittings Mistake. In the present embodiment 30, the container has a pipe socket 15 which can be sealed by means of a conventional crown cap. the The invention relates to a container structure, container 11 has a lower curved end part 16 consisting of a container with a cylindri- and an upper domed end part 17 and to the see middle part, arched front parts and separate transition points of these front parts in the cylindri- th, made of elastomeric material, 35 see the middle part, there are circumferential recesses. each enclosing an annular cavity, seen. with two coaxial annular surfaces on or on the case a tubular housing 12 is used, support arched front parts of the container and in this way it can be made of heat-insulating material "Form standing surfaces in the axial direction. and are at a distance from the container 11 In the case of the US Pat. No. 3,158,296, 40 arranged, whereby a container structure set and described between these parts, an annular air space 20 can arise. The heat-insulating material of the tubular housing 12, when placed next to one another, has its container walls butt against one another, which is preferably a stiff paper / } i serving as a carrier in the rough handling of these containers to layer 21, which has a film layer 22 carries which 'considerable damage and the failure of 45 is firmly attached to the carrier. The film layer 22 can carry containers. If this rolled container can be made of aluminum and is intended to be exaggerated, then these containers also roll to a thickness in FIG. 2 shown. The stiff paper layer on the exposed cylinder wall off, which, like cardboard, corrugated cardboard or the like, can lead to damage. If like that. The tubular housing 12 has overturned an upper term container, so the drop impact is also 50 end 23, which is mounted on the base 14 and a lower part of the container cylinder wall and res end 24, which is mounted on the lower base 13.
This, too, can lead to considerable damage. The base 13 consists of heat-insulating material, for example an elastomer according to Art The invention has for its object to provide one of an elastic rubber material, which fairly simply constructed, shock-proof container this 55 is sturdy. The base 13 has a flat, circumferential Kind of creating. fende, annular footprint 25 through which the According to the invention this is achieved in that the container assembly 10 can be stored so that it the container at the transition points between the one on the floor of a barrier, on the floor, cylindrical middle part and the front parts umlau- etc. can be turned off. The base 14 has a fende has recesses, which each have a similar, flat, circumferential, annular stand essential in 60 axially directed support shoulder form, surface 26, so that the container 10 either to the Stadaß the outer pein, which is supported on the container, or vice versa for dispensing the beverage Ring walls of the base each flush in which the position can be set up, in which case the pipe support shoulder forming recesses and trim 15 points downwards. The base 13 forms that the base each have a section, 65 two concentric annular spaces 27, 28, which for whose diameter is greater than the diameter of the front part 16 of the container 11 are open and all parts of the container. which together with the lower end part 16 of the When these containers are placed side by side, the container II has two annular air chambers 29, 30